4 Advice to Choose a Modular Air Cooled Chiller

Apr. 14, 2025

A Quick Guide to Choosing the Correct Chiller

Heat is a common by-product of today's manufacturing machines, which include the advanced automation technology required for high-speed operation and high precision. Components such as spindle motors, variable frequency drives, lasers and X-ray sources all require cooling to operate properly and reliably - often in very harsh manufacturing environments.

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As manufacturing space is at a premium and machine packages become smaller and smaller, liquid cooling has become the most efficient and cost-effective method of removing process heat. Particularly suited to hot, dirty environments, liquid cooling provides a way to remove heat from the machine without contributing additional heat back into the environment.

A quick guide to choosing the right chiller.

As every industrial environment is different, a 6-step guide to help you choose the right chiller for your application:

Water Cooled Screw Chiller

Step 1: Determine the thermal load

It is important to determine the thermal load of your application to ensure that the chosen chiller is large enough for the intended application. There are a number of ways to determine the thermal load (in BTU's) but understanding the process is essential to calculating an accurate thermal load.

Step 2: Determine coolant type, temperature and flow rate

When the heat load is known, the next step is to determine the coolant, its target temperature and the flow rate that the cooler must provide for the process. This depends on the method of heat transfer from the process to the coolant and the type of coolant used. Water, for example, has different properties to oil.

Step 3: Determine the installation environment

In what environment is the chiller to be installed? For example, indoor applications may encounter hot and dirty environments, while outdoor installations may encounter cold and hot environments. This can affect the size of the chiller and require accessories such as air filters, oil tank heaters etc.

Air Cooled Screw Chiller

Step 4: Using chiller performance curves

Now use the available chiller performance curves to select a chiller model that meets or exceeds the required capacity based on the chilled water supply temperature and the maximum expected ambient air temperature. Application safety margins associated with available rack sizes should be considered to maximise the value of chiller selection. Find all Brannenberg chiller performance curves in the Thermal Management catalogue.

Step 5: Check pump performance curves

Check the available pump performance curves to ensure that the pump is able to deliver sufficient pressure at the design flow rate to meet the application. Some liquid cooling systems have smaller coolant flow paths or longer distances, so pressure losses may be higher than average.

Step 6: Final selection

Finally, consider the remaining application requirements such as power characteristics, control options, footprint, list of mechanisms, colours, etc. that have been met by the selected Standard Brannenberg chiller. Choosing a standard chiller will give you greater reliability, easier access to universal spare parts service and global support.

Modular chiller plants: when are they the right choice? - ARANER

In the current context where energy efficiency is crucial, the choice between conventional and modular chiller plants stands at a crucial crossroads.

As we’ll see below in the article, the modular chiller system offers numerous advantages in a number of circumstances.

Such is the case of the industries that are part of the green transition, such as renewable energy production or electric vehicle manufacturing. As such, modular chillers for battery production factories have been hailed as a crucial solution as the development of electric vehicles continues.

By providing efficient yet flexible and precise cooling, a modular chiller plant can have an impact on reducing the environmental impact of cooling while bringing in cost reductions.

This is partly why the modular chillers market has experienced a noticeable growth, a trend that is expected to continue. For instance, GrandView Research foresees a compound annual growth rate (CAGR) of 6.8% from to for these systems’ market value, building from a value at USD 2.42 billion in . The consultancy firm considers the increasing awareness regarding sustainability in cooling as a major force driving this growth. On the other hand, Expert Market Research highlights the growing importance of water-cooled modular chillers over air-cooled systems for the foreseeable future.

But what exactly are modular chiller plants and when are they the best choice for cooling projects? Keep reading to find out.

What are modular chiller plants?

Modular chillers are cooling systems that consist of multiple independent chiller units designed to work efficiently together. As such, the modular chiller plant departs from the conventional model that relies on having a single large chiller unit.

The fact that these chiller units can be arranged in a modular configuration allows for flexibility in design and crucial scalability. This capacity is precisely the main advantage of modular chillers: as cooling demands change or grow, additional modules can be added to the system to increase capacity. Conversely, if cooling requirements decrease, modules can be removed or turned off to save energy.

Additional reading:
The Ultimate Buyer's Guide for Purchasing Water Cooled Chiller System
Ultimate Guide to Chillers for Automotive Efficiency

If you are looking for more details, kindly visit Modular Air Cooled Chiller.

The result is a versatile and efficient solution for cooling that is an adequate choice for a wide range of applications.

Air-cooled and modular water cooled chillers are available today. There are also other adaptations, including different tonnage options. However, all of them rely on the same basic set of components, including compressors, pumping and control systems. Modular chillers are prewired and many present integrated cooling towers, fans, boilers, and generators.

What are the benefits of modular chillers

1. Increased redundancy

With modular chillers, one module failing doesn’t necessarily mean downtime: when one module fails, the rest of the system can continue operating while losing a small percentage of the overall plant capacity.

2. Precision

Modular chillers can be designed so that only the necessary cooling capacity is deployed at the time and place when they’re needed. While this brings in another additional benefit, one of their key advantages is to provide precise and stable temperature control within a narrow range.

In fact, their zoning capacities mean that independent temperature control is possible, all with a fast response time.

3. Energy efficiency

The modular chiller system can be optimized for varying loads, which leads to improved efficiency compared to fixed-capacity units.

4. Flexibility

Modular chillers can be adjusted to fit the specific needs of a facility, and scaled with additional modules as needed. Their flexibility also means modular chillers can be adapted for industrial heat pumps, thus bringing in both heating and cooling capacities.

5. Easy maintenance

Thanks to their smaller components, modular chillers are typically easier to maintain and repair.

6. Space efficiency

While traditional large chiller systems often require dedicated rooms or outdoor space for installation, modular chiller plants offer a more compact footprint. The options are many, and include their installation in smaller spaces or their distribution throughout a facility.

7. Short installation time

Commissioning times are greatly reduced, as all piping joints, electrical and control signals are tested at the factory. Additionally, because modular plants come from the factory as standard equipment, the number of required permits is greatly reduced.

8. Factory-made means higher quality

Works like pipe cutting, welding and cable pulling are performed at the factory in a controlled and clean environment, with tools for precision. This translates into excellent quality for the final product, as opposed to the conventional approaches, which means site works are done in a dirty and sometimes unsuitable environment.

Additionally, the fact that most materials are installed at the factory and the site works means required site manpower is reduced. In conventional chiller plants, a wide range of materials and qualified manpower is required, which sometimes might not be available (for instance, in the case of remote areas). Modular chiller plants solve this.

9. Noise control

While conventional facilities can pose noise pollution, a modular chiller plant offers reduced noise levels.

When are modular chillerplants convenient?

Based on the previous advantages, here are some scenarios where modular chillers would be the preferred option:

When precise temperature control is needed for safety and quality. Such is the case of the manufacturing of certain products, including battery production factories.
Sites aiming at flexible and scalable cooling solutions. For instance, certain data center cooling solutions need to face fluctuating cooling demands due to changes in server loads and equipment upgrades. On the contrary, a modular chiller system can efficiently adapt to these varying loads, providing reliable and energy-efficient cooling while allowing for future expansion.
Projects that demand a quick installation
Projects that have limited access to manpower
Sites where space limitations are crucial
Operators looking to minimize their environmental impact. This is particularly true of industries that are part of the transition towards a green economy, including renewable energy production facilities, waste-to-energy plants or water treatment and desalination plants

While modular chillers offer a wide range of advantages, they aren’t the only option and certainly not the best option for all types of projects.

This is why at ARANER we prefer offering a tailor-made approach to cooling solutions, recognising a ‘one-size-fits-all-’ mentality is not the best approach to thermal engineering.

Our aim is to design plants to meet project demands, all with the smallest environmental footprint and best cost-efficiency. This often involves a customized approach to cooling plants that may involve state-of-the-art solutions like Thermal Energy Storage (TES) to boost efficiency.

As such, when approached with a new project, we take the time to analyze which solution will optimize the plant’s energy and economic output. Our thermal engineering expertise guides your project in the choice between modular and conventional chillers, leading to cutting-edge installations that adjust to each project’s needs and guarantee total reliability and top-performance.

Want more information on Brine Chillers? Feel free to contact us.

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